现在由于系统越来越复杂,导致很多接口速度变慢,这时候就会想到可以利用线程池来处理一些耗时并不影响系统的操作。本文就介绍了SpringBoot线程池的使用,感兴趣的可以了解一下
现在由于系统越来越复杂,导致很多接口速度变慢,这时候就会想到可以利用线程池来处理一些耗时并不影响系统的操作。
新建Spring Boot项目
1. ExecutorConfig.xml
新建线程池配置文件。
@Configuration @EnableAsync public class ExecutorConfig { private static final Logger logger = LoggerFactory.getLogger(ExecutorConfig.class); @Value("${async.executor.thread.core_pool_size}") private int corePoolSize; @Value("${async.executor.thread.max_pool_size}") private int maxPoolSize; @Value("${async.executor.thread.queue_capacity}") private int queueCapacity; @Value("${async.executor.thread.name.prefix}") private String namePrefix; @Bean(name = "asyncServiceExecutor") public Executor asyncServiceExecutor() { logger.info("start asyncServiceExecutor"); ThreadPoolTaskExecutor executor = new ThreadPoolTaskExecutor(); //配置核心线程数 executor.setCorePoolSize(corePoolSize); //配置最大线程数 executor.setMaxPoolSize(maxPoolSize); //配置队列大小 executor.setQueueCapacity(queueCapacity); //配置线程池中的线程的名称前缀 executor.setThreadNamePrefix(namePrefix); // rejection-policy:当pool已经达到max size的时候,如何处理新任务 // CALLER_RUNS:不在新线程中执行任务,而是有调用者所在的线程来执行 executor.setRejectedExecutionHandler(new ThreadPoolExecutor.CallerRunsPolicy()); //执行初始化 executor.initialize(); return executor; } }
2. application.yml
@Value配置在application.yml,可以参考配置
# 异步线程配置 async: executor: thread: # 配置核心线程数 core_pool_size: 10 # 配置最大线程数 max_pool_size: 20 # 配置队列大小 queue_capacity: 99999 # 配置线程池中的线程的名称前缀 name: prefix: async-service-
3. AsyncService.java
创建一个 Service 接口,是异步线程的接口,将方法写入其实现类即可
public interface AsyncService { /** * 执行异步任务的方法,参数自己可<b style="color:transparent">来源gao@dai!ma.com搞$代^码网</b>以添加 */ void executeAsync(); }
4. AsyncServiceImpl.java
实现类,用来写业务逻辑
@Service public class AsyncServiceImpl implements AsyncService { private static final Logger logger = LoggerFactory.getLogger(AsyncServiceImpl.class); @Override @Async("asyncServiceExecutor") public void executeAsync() { logger.info("start executeAsync"); System.out.println("异步线程执行开始了"); System.out.println("可以将耗时的操作放到这里执行了"); logger.info("end executeAsync"); } }
++将 Service 层的服务异步化,在executeAsync()方法上增加注解@Async(“asyncServiceExecutor”),asyncServiceExecutor方法是前面ExecutorConfig.java中的方法名,表明executeAsync方法进入的线程池是asyncServiceExecutor方法创建的。++
5. AsyncController.java
在控制器里面注入AsyncService,调用其中的方法即可
@Autowired private AsyncService asyncService; @GetMapping("/async") public void async(){ asyncService.executeAsync(); }
6. 用Postman进行测试
打印log入下
2021-06-16 22:15:47.655 INFO 10516 — [async-service-5] c.u.d.e.executor.impl.AsyncServiceImpl : start executeAsync
异步线程执行开始了
可以将耗时的操作放到这里执行了
2021-06-16 22:15:47.655 INFO 10516 — [async-service-5] c.u.d.e.executor.impl.AsyncServiceImpl : end executeAsync
2021-06-16 22:15:47.770 INFO 10516 — [async-service-1] c.u.d.e.executor.impl.AsyncServiceImpl : start executeAsync
异步线程执行开始了
可以将耗时的操作放到这里执行了
2021-06-16 22:15:47.770 INFO 10516 — [async-service-1] c.u.d.e.executor.impl.AsyncServiceImpl : end executeAsync
2021-06-16 22:15:47.816 INFO 10516 — [async-service-2] c.u.d.e.executor.impl.AsyncServiceImpl : start executeAsync
异步线程执行开始了
可以将耗时的操作放到这里执行了
2021-06-16 22:15:47.816 INFO 10516 — [async-service-2] c.u.d.e.executor.impl.AsyncServiceImpl : end executeAsync
2021-06-16 22:15:48.833 INFO 10516 — [async-service-3] c.u.d.e.executor.impl.AsyncServiceImpl : start executeAsync
异步线程执行开始了
可以将耗时的操作放到这里执行了
2021-06-16 22:15:48.834 INFO 10516 — [async-service-3] c.u.d.e.executor.impl.AsyncServiceImpl : end executeAsync
2021-06-16 22:15:48.986 INFO 10516 — [async-service-4] c.u.d.e.executor.impl.AsyncServiceImpl : start executeAsync
异步线程执行开始了
可以将耗时的操作放到这里执行了
2021-06-16 22:15:48.987 INFO 10516 — [async-service-4] c.u.d.e.executor.impl.AsyncServiceImpl : end executeAsync
至此简单的线程池已经实现了。
5. 将当前线程池的运行状况打印出来
5.1 VisiableThreadPoolTaskExecutor.java
public class VisiableThreadPoolTaskExecutor extends ThreadPoolTaskExecutor { private static final Logger logger = LoggerFactory.getLogger(VisiableThreadPoolTaskExecutor.class); private void showThreadPoolInfo(String prefix) { ThreadPoolExecutor threadPoolExecutor = getThreadPoolExecutor(); if (null == threadPoolExecutor) { return; } logger.info("{}, {},taskCount [{}], completedTaskCount [{}], activeCount [{}], queueSize [{}]", this.getThreadNamePrefix(), prefix, threadPoolExecutor.getTaskCount(), threadPoolExecutor.getCompletedTaskCount(), threadPoolExecutor.getActiveCount(), threadPoolExecutor.getQueue().size()); } @Override public void execute(Runnable task) { showThreadPoolInfo("1. do execute"); super.execute(task); } @Override public void execute(Runnable task, long startTimeout) { showThreadPoolInfo("2. do execute"); super.execute(task, startTimeout); } @Override public Future submit(Runnable task) { showThreadPoolInfo("1. do submit"); return super.submit(task); } @Override public Future submit(Callable task) { showThreadPoolInfo("2. do submit"); return super.submit(task); } @Override public ListenableFuture submitListenable(Runnable task) { showThreadPoolInfo("1. do submitListenable"); return super.submitListenable(task); } @Override public ListenableFuture submitListenable(Callable task) { showThreadPoolInfo("2. do submitListenable"); return super.submitListenable(task); } }
5.2 修改asyncServiceExecutor.java
修改ExecutorConfig.java的asyncServiceExecutor方法,将ThreadPoolTaskExecutor executor = new ThreadPoolTaskExecutor()改为ThreadPoolTaskExecutor executor = new VisiableThreadPoolTaskExecutor()
@Bean(name = "asyncServiceExecutor") public Executor asyncServiceExecutor() { logger.info("start asyncServiceExecutor"); //在这里修改 ThreadPoolTaskExecutor executor = new VisiableThreadPoolTaskExecutor(); //配置核心线程数 executor.setCorePoolSize(corePoolSize); //配置最大线程数 executor.setMaxPoolSize(maxPoolSize); //配置队列大小 executor.setQueueCapacity(queueCapacity); //配置线程池中的线程的名称前缀 executor.setThreadNamePrefix(namePrefix); // rejection-policy:当pool已经达到max size的时候,如何处理新任务 // CALLER_RUNS:不在新线程中执行任务,而是有调用者所在的线程来执行 executor.setRejectedExecutionHandler(new ThreadPoolExecutor.CallerRunsPolicy()); //执行初始化 executor.initialize(); return executor; }
5.3 使用Postman进行测试
2021-06-16 22:23:30.951 INFO 14088 — [nio-8087-exec-2] u.d.e.e.i.VisiableThreadPoolTaskExecutor : async-service-, 2. do submit,taskCount [0], completedTaskCount [0], activeCount [0], queueSize [0]
2021-06-16 22:23:30.952 INFO 14088 — [async-service-1] c.u.d.e.executor.impl.AsyncServiceImpl : start executeAsync
异步线程执行开始了
可以将耗时的操作放到这里执行了
2021-06-16 22:23:30.953 INFO 14088 — [async-service-1] c.u.d.e.executor.impl.AsyncServiceImpl : end executeAsync
2021-06-16 22:23:31.351 INFO 14088 — [nio-8087-exec-3] u.d.e.e.i.VisiableThreadPoolTaskExecutor : async-service-, 2. do submit,taskCount [1], completedTaskCount [1], activeCount [0], queueSize [0]
2021-06-16 22:23:31.353 INFO 14088 — [async-service-2] c.u.d.e.executor.impl.AsyncServiceImpl : start executeAsync
异步线程执行开始了
可以将耗时的操作放到这里执行了
2021-06-16 22:23:31.353 INFO 14088 — [async-service-2] c.u.d.e.executor.impl.AsyncServiceImpl : end executeAsync
2021-06-16 22:23:31.927 INFO 14088 — [nio-8087-exec-5] u.d.e.e.i.VisiableThreadPoolTaskExecutor : async-service-, 2. do submit,taskCount [2], completedTaskCount [2], activeCount [0], queueSize [0]
2021-06-16 22:23:31.929 INFO 14088 — [async-service-3] c.u.d.e.executor.impl.AsyncServiceImpl : start executeAsync
异步线程执行开始了
可以将耗时的操作放到这里执行了
2021-06-16 22:23:31.930 INFO 14088 — [async-service-3] c.u.d.e.executor.impl.AsyncServiceImpl : end executeAsync
2021-06-16 22:23:32.496 INFO 14088 — [nio-8087-exec-7] u.d.e.e.i.VisiableThreadPoolTaskExecutor : async-service-, 2. do submit,taskCount [3], completedTaskCount [3], activeCount [0], queueSize [0]
2021-06-16 22:23:32.498 INFO 14088 — [async-service-4] c.u.d.e.executor.impl.AsyncServiceImpl : start executeAsync
异步线程执行开始了
可以将耗时的操作放到这里执行了
2021-06-16 22:23:32.499 INFO 14088 — [async-service-4] c.u.d.e.executor.impl.AsyncServiceImpl : end executeAsync
可以看到上面async-service-, 2. do submit,taskCount [3], completedTaskCount [3], activeCount [0], queueSize [0]关于线程的信息都打印出来了。
到此这篇关于SpringBoot实现线程池的文章就介绍到这了,更多相关SpringBoot 线程池内容请搜索gaodaima搞代码网以前的文章或继续浏览下面的相关文章希望大家以后多多支持gaodaima搞代码网!
以上就是SpringBoot实现线程池的详细内容,更多请关注gaodaima搞代码网其它相关文章!
转载请注明原文链接:SpringBoot实现线程池
